Clazz.declarePackage ("JMB");
Clazz.load (["JMB.AlphaPolymer"], "JMB.AminoPolymer", ["JU.P3", "$.V3", "J.c.STR", "JM.HBond", "JW.Logger", "$.Measure"], function () {
c$ = Clazz.decorateAsClass (function () {
this.structureList = null;
Clazz.instantialize (this, arguments);
}, JMB, "AminoPolymer", JMB.AlphaPolymer);
Clazz.makeConstructor (c$, 
function (monomers) {
Clazz.superConstructor (this, JMB.AminoPolymer, [monomers]);
this.type = 1;
for (var i = 0; i < this.monomerCount; ++i) if (!(monomers[i]).hasOAtom ()) return;

this.hasWingPoints = true;
}, "~A");
Clazz.overrideMethod (c$, "resetHydrogenPoints", 
function () {
var ps;
var psLast = null;
for (var i = 0; i < this.monomerCount; i++) {
if ((ps = this.getProteinStructure (i)) != null && ps !== psLast) (psLast = ps).resetAxes ();
(this.monomers[i]).resetHydrogenPoint ();
}
});
Clazz.overrideMethod (c$, "calcPhiPsiAngles", 
function () {
for (var i = 0; i < this.monomerCount - 1; ++i) this.calcPhiPsiAngles2 (this.monomers[i], this.monomers[i + 1]);

return true;
});
Clazz.defineMethod (c$, "calcPhiPsiAngles2", 
 function (residue1, residue2) {
var nitrogen1 = residue1.getNitrogenAtom ();
var alphacarbon1 = residue1.getLeadAtom ();
var carbon1 = residue1.getCarbonylCarbonAtom ();
var nitrogen2 = residue2.getNitrogenAtom ();
var alphacarbon2 = residue2.getLeadAtom ();
var carbon2 = residue2.getCarbonylCarbonAtom ();
residue2.setGroupParameter (1112539145, JW.Measure.computeTorsion (carbon1, nitrogen2, alphacarbon2, carbon2, true));
residue1.setGroupParameter (1112539146, JW.Measure.computeTorsion (nitrogen1, alphacarbon1, carbon1, nitrogen2, true));
residue1.setGroupParameter (1112539144, JW.Measure.computeTorsion (alphacarbon1, carbon1, nitrogen2, alphacarbon2, true));
}, "JMB.AminoMonomer,JMB.AminoMonomer");
Clazz.overrideMethod (c$, "calculateRamachandranHelixAngle", 
function (m, qtype) {
var psiLast = (m == 0 ? NaN : this.monomers[m - 1].getGroupParameter (1112539146));
var psi = this.monomers[m].getGroupParameter (1112539146);
var phi = this.monomers[m].getGroupParameter (1112539145);
var phiNext = (m == this.monomerCount - 1 ? NaN : this.monomers[m + 1].getGroupParameter (1112539145));
var psiNext = (m == this.monomerCount - 1 ? NaN : this.monomers[m + 1].getGroupParameter (1112539146));
switch (qtype) {
default:
case 'p':
case 'r':
case 'P':
var dPhi = ((phiNext - phi) / 2 * 3.141592653589793 / 180);
var dPsi = ((psiNext - psi) / 2 * 3.141592653589793 / 180);
return (57.29577951308232 * 2 * Math.acos (Math.cos (dPsi) * Math.cos (dPhi) - Math.sin (dPsi) * Math.sin (dPhi) / 3));
case 'c':
case 'C':
return (psi - psiLast + phiNext - phi);
}
}, "~N,~S");
Clazz.overrideMethod (c$, "calcRasmolHydrogenBonds", 
function (polymer, bsA, bsB, vHBonds, nMaxPerResidue, min, checkDistances, dsspIgnoreHydrogens) {
if (polymer == null) polymer = this;
if (!(Clazz.instanceOf (polymer, JMB.AminoPolymer))) return;
var pt =  new JU.P3 ();
var vNH =  new JU.V3 ();
var source;
var min1 = (min == null ?  Clazz.newIntArray (2, 3, 0) : null);
for (var i = 1; i < this.monomerCount; ++i) {
if (min == null) {
min1[0][0] = min1[1][0] = this.bioPolymerIndexInModel;
min1[0][1] = min1[1][1] = -2147483648;
min1[0][2] = min1[1][2] = 0;
} else {
min1 = min[i];
}if ((source = (this.monomers[i])).getNHPoint (pt, vNH, checkDistances, dsspIgnoreHydrogens)) {
var isInA = (bsA == null || bsA.get (source.getNitrogenAtom ().i));
if (!isInA) continue;
if (!checkDistances && source.getCarbonylOxygenAtom () == null) continue;
this.checkRasmolHydrogenBond (source, polymer, i, pt, (isInA ? bsB : bsA), vHBonds, min1, checkDistances);
}}
}, "JMB.BioPolymer,JU.BS,JU.BS,JU.List,~N,~A,~B,~B");
Clazz.defineMethod (c$, "checkRasmolHydrogenBond", 
 function (source, polymer, indexDonor, hydrogenPoint, bsB, vHBonds, min, checkDistances) {
var sourceAlphaPoint = source.getLeadAtom ();
var sourceNitrogenPoint = source.getNitrogenAtom ();
var nitrogen = source.getNitrogenAtom ();
var m;
for (var i = polymer.monomerCount; --i >= 0; ) {
if (polymer === this && (i == indexDonor || i + 1 == indexDonor)) continue;
var target = polymer.monomers[i];
var oxygen = target.getCarbonylOxygenAtom ();
if (oxygen == null || bsB != null && !bsB.get (oxygen.i)) continue;
var targetAlphaPoint = target.getLeadAtom ();
var dist2 = sourceAlphaPoint.distanceSquared (targetAlphaPoint);
if (dist2 >= 81.0) continue;
var energy = this.calcHbondEnergy (sourceNitrogenPoint, hydrogenPoint, target, checkDistances);
if (energy < min[0][2]) {
m = min[1];
min[1] = min[0];
min[0] = m;
} else if (energy < min[1][2]) {
m = min[1];
} else {
continue;
}m[0] = polymer.bioPolymerIndexInModel;
m[1] = (energy < -500 ? i : -1 - i);
m[2] = energy;
}
if (vHBonds != null) for (var i = 0; i < 2; i++) if (min[i][1] >= 0) this.addResidueHydrogenBond (nitrogen, ((polymer).monomers[min[i][1]]).getCarbonylOxygenAtom (), (polymer === this ? indexDonor : -99), min[i][1], min[i][2] / 1000, vHBonds);

}, "JMB.AminoMonomer,JMB.BioPolymer,~N,JU.P3,JU.BS,JU.List,~A,~B");
Clazz.defineMethod (c$, "calcHbondEnergy", 
 function (nitrogenPoint, hydrogenPoint, target, checkDistances) {
var targetOxygenPoint = target.getCarbonylOxygenAtom ();
if (targetOxygenPoint == null) return 0;
var distON2 = targetOxygenPoint.distanceSquared (nitrogenPoint);
if (distON2 < 0.25) return 0;
var distOH2 = targetOxygenPoint.distanceSquared (hydrogenPoint);
if (distOH2 < 0.25) return 0;
var targetCarbonPoint = target.getCarbonylCarbonAtom ();
var distCH2 = targetCarbonPoint.distanceSquared (hydrogenPoint);
if (distCH2 < 0.25) return 0;
var distCN2 = targetCarbonPoint.distanceSquared (nitrogenPoint);
if (distCN2 < 0.25) return 0;
var distOH = Math.sqrt (distOH2);
var distCH = Math.sqrt (distCH2);
var distCN = Math.sqrt (distCN2);
var distON = Math.sqrt (distON2);
var energy = JM.HBond.getEnergy (distOH, distCH, distCN, distON);
var isHbond = (energy < -500 && (!checkDistances || distCN > distCH && distOH <= 3.0));
return (!isHbond && checkDistances || energy < -9900 ? 0 : energy);
}, "JU.P3,JU.P3,JMB.AminoMonomer,~B");
Clazz.defineMethod (c$, "addResidueHydrogenBond", 
 function (nitrogen, oxygen, indexAminoGroup, indexCarbonylGroup, energy, vHBonds) {
var order;
switch (indexAminoGroup - indexCarbonylGroup) {
case 2:
order = 6144;
break;
case 3:
order = 8192;
break;
case 4:
order = 10240;
break;
case 5:
order = 12288;
break;
case -3:
order = 14336;
break;
case -4:
order = 16384;
break;
default:
order = 4096;
}
vHBonds.addLast ( new JM.HBond (nitrogen, oxygen, order, 1, 0, energy));
}, "JM.Atom,JM.Atom,~N,~N,~N,JU.List");
Clazz.overrideMethod (c$, "calculateStructures", 
function (alphaOnly) {
if (alphaOnly) return;
if (this.structureList == null) this.structureList = this.model.getModelSet ().getStructureList ();
var structureTags =  Clazz.newCharArray (this.monomerCount, '\0');
for (var i = 0; i < this.monomerCount - 1; ++i) {
var leadingResidue = this.monomers[i];
var trailingResidue = this.monomers[i + 1];
var phi = trailingResidue.getGroupParameter (1112539145);
var psi = leadingResidue.getGroupParameter (1112539146);
if (this.isHelix (psi, phi)) {
structureTags[i] = (phi < 0 && psi < 25 ? '4' : '3');
} else if (this.isSheet (psi, phi)) {
structureTags[i] = 's';
} else if (this.isTurn (psi, phi)) {
structureTags[i] = 't';
} else {
structureTags[i] = 'n';
}if (JW.Logger.debugging) JW.Logger.debug ((0 + this.monomers[0].getChainID ()) + " aminopolymer:" + i + " " + trailingResidue.getGroupParameter (1112539145) + "," + leadingResidue.getGroupParameter (1112539146) + " " + structureTags[i]);
}
for (var start = 0; start < this.monomerCount; ++start) {
if (structureTags[start] == '4') {
var end;
for (end = start + 1; end < this.monomerCount && structureTags[end] == '4'; ++end) {
}
end--;
if (end >= start + 3) {
this.addStructureProtected (J.c.STR.HELIX, null, 0, 0, start, end);
}start = end;
}}
for (var start = 0; start < this.monomerCount; ++start) {
if (structureTags[start] == '3') {
var end;
for (end = start + 1; end < this.monomerCount && structureTags[end] == '3'; ++end) {
}
end--;
if (end >= start + 3) {
this.addStructureProtected (J.c.STR.HELIX, null, 0, 0, start, end);
}start = end;
}}
for (var start = 0; start < this.monomerCount; ++start) {
if (structureTags[start] == 's') {
var end;
for (end = start + 1; end < this.monomerCount && structureTags[end] == 's'; ++end) {
}
end--;
if (end >= start + 2) {
this.addStructureProtected (J.c.STR.SHEET, null, 0, 0, start, end);
}start = end;
}}
for (var start = 0; start < this.monomerCount; ++start) {
if (structureTags[start] == 't') {
var end;
for (end = start + 1; end < this.monomerCount && structureTags[end] == 't'; ++end) {
}
end--;
if (end >= start + 2) {
this.addStructureProtected (J.c.STR.TURN, null, 0, 0, start, end);
}start = end;
}}
}, "~B");
Clazz.defineMethod (c$, "isTurn", 
 function (psi, phi) {
return JMB.AminoPolymer.checkPhiPsi (this.structureList.get (J.c.STR.TURN), psi, phi);
}, "~N,~N");
Clazz.defineMethod (c$, "isSheet", 
 function (psi, phi) {
return JMB.AminoPolymer.checkPhiPsi (this.structureList.get (J.c.STR.SHEET), psi, phi);
}, "~N,~N");
Clazz.defineMethod (c$, "isHelix", 
 function (psi, phi) {
return JMB.AminoPolymer.checkPhiPsi (this.structureList.get (J.c.STR.HELIX), psi, phi);
}, "~N,~N");
c$.checkPhiPsi = Clazz.defineMethod (c$, "checkPhiPsi", 
 function (list, psi, phi) {
for (var i = 0; i < list.length; i += 4) if (phi >= list[i] && phi <= list[i + 1] && psi >= list[i + 2] && psi <= list[i + 3]) return true;

return false;
}, "~A,~N,~N");
Clazz.overrideMethod (c$, "setStructureList", 
function (structureList) {
this.structureList = structureList;
}, "java.util.Map");
Clazz.defineStatics (c$,
"maxHbondAlphaDistance", 9,
"maxHbondAlphaDistance2", 81.0,
"minimumHbondDistance2", 0.25);
});
